Packaged electronic device with integrated electronic circuits having transceiving antennas

ABSTRACT

A base carries a first chip and a second chip oriented differently with respect to the base and packaged in a package. Each chip integrates an antenna and a magnetic via. A magnetic coupling path connects the chips, forming a magnetic circuit that enables transfer of signals and power between the chips even if the magnetic path is interrupted, and is formed by a first stretch coupled between the first magnetic-coupling element of the first chip and the first magnetic-coupling element of the second chip, and a second stretch coupled between the second magnetic-coupling element of the first chip and the second magnetic-coupling element of the second chip. The first stretch has a parallel portion extending parallel to the faces of the base. The first and second stretches have respective transverse portions extending on the main surfaces of the second chip, transverse to the parallel portion.

BACKGROUND

Technical Field

The present disclosure relates to a packaged electronic devicecomprising integrated electronic circuits having transceiving antennas.

Description of the Related Art

As is known, integrated circuits are generally provided in chips ofsemiconductor material and communicate and interact with the outsideworld through pads, i.e., portions of conductive material for connectionwith the outside, such as for example other integrated circuits,external components, conductive supports, and the like.

In detail, each pad may form a termination of a line for conveyingelectrical signals inside the integrated circuit, or a point forsupplying the integrated circuit or other circuits.

Pads of different integrated devices, provided in different chips, maybe connected together for example through wires (wire bonding), contactbumps, and/or conductive paths. In all cases, one or more low-impedanceresistive paths electrically connect the integrated devices.

In case of a system comprised in a package, the so-called “System inPackage” (SiP), i.e., of an electronic device comprising, within a samepackage, at least two chips and, possibly, passive components, theintegrated circuits of the SiP are generally electrically connectedthrough their own pads. Moreover, frequently pads of differentintegrated circuits are electrically connected through so-calledthrough-silicon vias (TSVs).

However, this solution is not always optimal, since the electricalthrough vias are subject to important parasitic phenomena that causetheir electrical behavior to be non-ideal. In addition, they do notenable sharing with more integrated circuits, and have rather complexmanufacturing processes.

In order to overcome in part the described problems, SiPs have beenproposed comprising integrated devices provided with a suitabletransceiver (also known as “transponder”) connected to a transceivingantenna, typically embedded in the integrated circuit and in general ofthe loop type. These systems enable exchange of power and information ina magnetic/electromagnetic way. In some solutions, SiPs are providedwith electromagnetic expansions in order to improve coupling between thetransceiving antennas and/or magnetic cores formed inside or outside thepackaging structure.

Patent application No. WO2010076187 discloses solutions having magneticthrough silicon vias (or magnetic TSVs) that enable establishment ofmagnetic circuits between at least two devices in face-to-face,face-to-back, back-to-face, and back-to-back configuration.

These solutions provide for the chips to be arranged on top of eachother. However, sometimes it is necessary to connect two devices with adifferent orientation, typically a device with horizontal orientationand a device with vertical orientation.

This is currently obtained by attaching the two chips on a support andconnecting them via electrical connections. At times, the horizontaldevice and the vertical device are contiguous to each other in such away that a minor lateral surface of the horizontal device is contiguousto at least part of the main vertical surface of the vertical device(see, for example, U.S. Pat. No. 7,095,226).

This solution may be unsuitable in certain situations, for example, inan environment subject to vibrations and/or mechanical or environmentalstresses, in view of the possible damage to the conductive path, whichmay in some case be interrupted, causing malfunctioning of the system.In other cases, cracks may form in the package and allow seeping offoreign substances, with possible contamination and/or corrosion andthus interruption of the electrical connection.

In case of a plurality of devices, the interconnections may be complex,and the manufacturing process is critical and may cause a reduction ofthe quality of the final system.

BRIEF SUMMARY

One embodiment of the present disclosure is directed to a packageddevice that includes a base having a first face and a second face, afirst chip of semiconductor material attached to the first face of thebase and having main extension parallel to the base, a second chip ofsemiconductor material carried by the base and having main extensiontransverse to the base, a first package surrounding the first and secondchips and covering the base. Each chip includes a first main surface anda second main surface, an electronic circuit, a transceiving circuitcoupled to the electronic circuit, and an antenna and a magneticcoupling via, the antenna extending in proximity of the first mainsurface of the chip and being coupled to the transceiving circuit of thechip, and the magnetic via extending through the chip, between theantenna of the chip and the second main surface of the chip. The deviceincludes a first magnetic coupling path coupled between a first one ofthe antenna and magnetic via of the first chip and a first one of theantenna and magnetic via of the second chip and a second magneticcoupling path coupled between a second one of the antenna and magneticvia of the first chip and a second one of the antenna and magnetic viaof the second chip, the first magnetic coupling path including aparallel portion extending parallel to the first and second faces of thebase, and the first and second magnetic coupling paths includingrespective transverse portions extending respectively on the mainsurfaces of the second chip in a direction transverse to the parallelportion.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

For a better understanding of the present disclosure preferredembodiments thereof are now described, purely by way of non-limitingexample, with reference to the attached drawings, wherein:

FIGS. 1-3 show different embodiments of the present package;

FIG. 4 shows the layout of the package of FIG. 3;

FIGS. 5-11 show further embodiments of the present package;

FIG. 12 shows the layout of the package of FIG. 11; and

FIG. 13 shows yet a further embodiment of the present package.

DETAILED DESCRIPTION

FIG. 1 shows a packaged device 100 comprising a base 2, a first chip 3,a second chip 4, a magnetic path 5, and a package 6.

The base 2 is formed by a supporting body, typically a printed-circuitboard of the type normally used in electronics; it is made ofsingle-layer or multilayer organic material, for example epoxy resin,such as a laminate of BT (bismaleimide triazine) or FR-4 or some othersimilar material, possibly housing conductive regions, and has a firstface 2 a and a second face 2 b.

The chips 3 and 4 are each formed by one or more layers of semiconductormaterial (mono- and polycrystalline silicon) and possibly one or morelayers of dielectric and/or metal material (not shown) so that each chipforms one or more integrated electronic circuits 10, as representedschematically in FIG. 1 by generic electronic components. The electroniccircuits 10 integrated in the chips 3, 4 may be of various types; forexample, they may be digital circuits, analog circuits, RF circuits,sensors, actuators, for example including MEMS (Micro-Electro-MechanicalSystems) structures, etc.

The chip 3 may be connected to the base 2, for example using bondingwires (not shown in the figure).

The chips 3, 4 are galvanically insulated from each other and aremagnetically connected together. For this purpose, each of the chips 3,4 integrates in its inside at least one transceiving circuit 11, anantenna 12, and a magnetic via 13.

The transceiving circuits 11 electrically connect each respectiveintegrated electronic circuit 10 with its own antenna 12 fortransmitting and/or receiving signals and/or power and typicallycomprise a transponder or a transceiver and AC/DC and/or DC/AC convertercircuits.

Each antenna 12 is formed in the proximity of a first main surface 15 ofthe respective chip 3, 4, or faces it, and is generally implemented as aloop antenna (with single loop or multiple loops), even though alsoother types of antennas may be used jointly, such as for exampleHertzian dipoles, or interfaces of a capacitive type.

Each magnetic via 13 extends within the respective chip 3, 4, underneaththe antenna 12 (with respect to the first main surface 15) or within theantenna 12 (as described, for example, in WO 2010/076187) as far as asecond main surface 16 opposite to the first main surface 15. Themagnetic vias 13 are electrically decoupled from the respective antennas12. Each magnetic via 13 has the shape, for example, of a truncatedpyramid or a truncated cone set upside down, as described in theaforementioned patent application WO 2010/076187.

One of the two chips, here the first chip 3, is arranged in a horizontalposition with respect to the base 2, fixed to the first face 2 athereof, while the other chip, here the second chip 4, is arrangedvertically. In the embodiment of FIG. 1, the second chip 4 is mounted ontop of the first chip 3 and is mechanically fixed thereto for example bya glue or resin region 20.

The magnetic path 5 is formed by one or more stretches configured toform a magnetic circuit including the magnetic vias 13 of the chip 3, 4.The magnetic path 5 is of magnetic material, e.g., ferrite such asNiZnO, MnZnO, or soft magnetic material, such as CoZrTa, CoZrO, FeHfN(O)and the like.

In particular, in FIG. 1, the magnetic path 5 comprises a first stretch5 a extending on the first main surfaces 15 of the chips 3, 5, betweenthe corresponding antennas 12, and a second stretch 5 b extending on thesecond main surfaces 16 of the chips 3, 4, between the correspondingmagnetic vias 13 and in part in contact with the first face 2 a of thebase 2.

Of course, one or both of the chips 3, 4 may be turned upside down, withthe first stretch 5 a extending between an antenna 12 and a magnetic via13 or between the two magnetic vias 13 and the second stretchconsequently extending between a magnetic via 13 and an antenna 12 orbetween the two antennas 12.

Here, the package 6 completely envelops and embeds the chips 3, 4. Bumps21 are formed on the rear of the base 2 (on its second face 2 b) forconnection with the outside.

Operatively, the chips 3, 4 communicate with each other by virtue of thecoupling existing between the corresponding antennas 12 and may be of amagnetic or electromagnetic type, as described in the aforementionedpatent application WO 2010/076187. The magnetic circuit formed by themagnetic vias 13 and by the magnetic path 5 enables a magnetic couplingbetween the antennas 12 of the two chips 3, 4 and thus efficienttransmission of signals and power between them.

Thanks to the magnetic coupling between the antennas 12, it is notnecessary for the magnetic circuit to be continuous, but gaps may exist,that is the magnetic or soft magnetic material may be missing in one ormore short portions of the magnetic circuit, without implying anymalfunctioning of the system. In this way, should small interruptions ofthe magnetic paths 5 arise, as a result of mechanical stresses and/orstresses of some other nature (including ageing), the chips 3, 4 arenonetheless able to communicate with each other.

Preferably, the magnetic circuit has a closed shape to preventdemagnetization of the magnetic material, which reduces the performancethereof.

During manufacture, the part of the second stretch 5 b arranged betweenthe base 2 and the first chip 3 may be provided prior to attaching ofthe first chip 3, laying the magnetic material for example via achemical or electrolytic or electroless process or aerosol printing;after attaching the chip 3, 4, the rest of the magnetic path 5 isprovided in a similar way. Alternatively, at least some stretches of thepath 5 may be provided directly on the chips 3, 4, via post-processingoperations, so that, after assembly, the various stretches are in directcontact or in proximity of each other so as to form the stretches 5 aand 5 b.

The embodiment of FIG. 2 shows a packaged device 101 in which the secondchip 4 extends above the base 2 of the first chip 3 and is fixed to thefirst face 2 a of the base 2.

Here, the first chip 3 is connected to the base 2 through bumps 17formed on its second main surface 16; the first stretch 5 c of themagnetic path 5 comprises a first portion 5 c 1 extending above the base2, a second portion 5 c 2 extending alongside the first chip 3, and athird portion 5 c 3 extending above the base 2; and the second stretch 5d of the magnetic path 5 extends in part underneath the base 2 (on itssecond face 2 b, at a distance from the chips 3, 4), alongside the bumps21. Part of the second stretch 5 d may moreover extend alongside thebase 2 (as shown on the left in the drawing) or the second stretch 5 dmay be connected to the first face 2 a of the base 2 by a magnetic via22 passing through the base 2. In the example shown, the magnetic via 22in the base 2 extends substantially aligned to the magnetic via 13 inthe first chip 3, and a magnetic portion 5 e extends between the base 2and the second chip 3 to improve coupling. Alternatively, the magneticportion 5 e may be absent. Other solutions are possible, includingforming two magnetic vias 22 in the base 2 for connecting the stretchesof magnetic path formed on the two faces 2 a and 2 b of the base 2(similar to what is shown on the right in FIG. 2), thus replacing thestretch 5 d 2, or forming a single second stretch 5 d extendinglaterally around the base 2 and at the bottom to form the magneticcircuit comprising the magnetic vias 13 of the chips 3, 4 (similar towhat is shown on the left in FIG. 2), or providing a further antenna inthe base 2, coupled to the magnetic via 22 so that it may communicatewith the outside and/or supply power to the packaged device 101 via themagnetic circuit.

Moreover, the first and second stretches 5 c, 5 d have vertical portions5 h 1, 5 h 2 extending along the surfaces 15, 16 of the second chip 4.

In the packaged device 102 of FIGS. 3 and 4, the first chip 3 is stillconnected to the base 2 through bumps 17 formed on its second mainsurface 15, and the second chip 4 is attached directly to the base 2,but the second stretch comprises, in addition to vertical portions 5 i1, 5 i 2 along the surfaces of the second chip 4, also a planar portion5 f (see in particular FIG. 4) entirely formed on the first face 2 a ofthe base 2, with parts extending along the chips 3, 4, in the top planview of FIG. 4.

Moreover, in FIG. 3, the base 2 has a recess 24 accommodating the secondchip 4 so as to simplify and improve mechanical fixing thereof.

In addition, the two vertical portions 5 i 1, 5 i 2 of the path 5 extendwithin the recess 24 so as to form a sort of magnetic socket.

Also in this case, part of the magnetic path 5 may be provided prior tofixing the first chip 3 (portions 5 c 1, 5 c 3 5 i 1, 5 i 2 and 5 f,FIG. 4) and part after fixing the second chip 4, for example by forming,by aerosol jet printing, a magnetic material strip on the side of thefirst chip 3 (portion 5 c 2). Alternatively, part of the magnetic path 5(portions 5 c 1, 5 i 1, 5 i 3) may be formed directly on the chips 3, 4,for example during the manufacture of the wafers from which the chips 3,4 have been diced or via a post-processing of the wafer or directly onthe chips 3, 4.

In the packaged device 103 of FIG. 5, the individual chips 3, 4, arereplaced by stacks 23 of chips 25, mutually stacked in a horizontaldirection and in a vertical direction and forming a magnetic circuittogether with the path 5.

One of the chips 3, 4 may be comprised only in part within the package6.

For example, in the packaged device 104 of FIG. 6 the first chip 3 isenclosed in an own package or pre-package 26, accommodating part of thefirst stretch 5 c of the path 5. The first chip 3, thus packaged, isfixed to the base 2 having a magnetic socket 27 comprising a supportingportion 28 of insulating material, for example a ceramic or plasticmaterial on the internal walls of which portions 29 of the magnetic path5 are formed. The supporting portion 28 may be formed by just two walls,visible in FIG. 6, or by four walls perpendicular two by two. Themagnetic socket 27 defines inside it a cavity 35 with a parallelepipedshape, in which the second chip 4 is inserted. The second chip 4 may becoated with magnetic material 30 on its two main surfaces 15, 16.

The internal walls of the magnetic socket 27 may be coated completely bymagnetic material or magnetic material, or regions or portions ofmagnetic or soft magnetic material may be arranged on these walls, alongeach other and connected or not together by magnetic paths. Possibly thecavity 35 may be coated by a thin insulating layer (not shown in thefigure) that protects the magnetic or soft magnetic material. A secondpackage 31 (for example, of a material similar to the package 26, suchas, for example, a resin) completely surrounds the first chip 3 and thecorresponding package 26 and laterally surrounds the magnetic socket 27.

The magnetic socket 27 may be fixed to the substrate 2 for example via aresin or a glue (not shown) and may present magnetic terminations (whichare not shown either) for forming the magnetic circuit, limiting to theminimum the presence of gaps.

Advantageously, the magnetic socket 27 may have engagement structures ofa mechanical type (not shown, for example such as springs, slottedjoints, pins, hooks, etc.), for blocking in position the second chip 4,enabling, however, insertion and extraction thereof.

Thereby, the second chip 4 may be inserted and removed, for example forits replacement, if and when failures arise in the second chip 4 duringtesting or during operation. In addition, this solution enables use ofthe same layout for different final devices, all using a same first chip3 and a different chip 4 so as to modify the characteristics of thefinal device.

This enables a considerable saving, exploiting economies of scale. Infact, in the first case (replacement of a failed chip), the replacementof a single element (second chip 4) enables considerable reduction ofthe costs due to failure because the other components are not to bereplaced and thus do not affect the costs. In fact, the presence of themagnetic path 5 allows power and/or signal to be transmitted between thefirst and the second chips 3, 4, which consequently does not have to beconnected directly via electrical conductors, the continuity whereof isessential for operation of the final device and could not be restored inthe case of malfunctioning after packaging of the final system.

Obviously, the solution of FIG. 6 may be modified to have a replaceablefirst chip 3, as an alternative or in addition to the second chip 4, byproviding a suitably designed socket, similar to the magnetic socket 27.

In addition, even though in FIG. 6 the magnetic socket 27 projects fromthe package 31, it may be embedded completely therein, or terminate atthe top flush.

Furthermore, even though in FIG. 6 the chip 4 and the correspondingsockets 27 are arranged vertically with respect to the base 2, it ispossible to arranged (not shown) the socket and the chip 4 in an obliqueway with respect to the base 2, forming an appropriate inclinationangle.

In addition, the socket 27 may have more cavities so as to housedifferent chips.

In the packaged device 105 of FIG. 7, the magnetic socket 27 is formedby a recess 24 in the base 2 and a cavity 36 in the package 6. Therecess 24 has also here walls coated with magnetic or soft magneticmaterial 5 i 1, 5 i 2, similarly to FIG. 3.

In FIG. 7, the first chip 3 is not surrounded by an own package orprepackage, but the package 6 defines the general package of the finaldevice. However, an embodiment may have the magnetic socket 27 formed bythe recess 24, the cavity 36, and the stretches 5 g 1, 5 g 2, and twopackages, one suitably designed for the first chip 3 and a general one,similarly to FIG. 6.

In addition, the solutions shown in FIGS. 6 and 7 may be used forhousing stacks of chips, similarly to the stacks 23 of FIG. 5, whereinat least one of the two stacks is inserted in a magnetic socket 27enabling a simple insertion and possibly removal thereof. Moreover, asingle package may be provided, as in FIG. 1, or a double package, as inFIG. 6.

The solution of FIG. 7 houses, in the cavity 36, a packaged chip 38,configured to form part of the magnetic circuit including the path 5. Tothis end, the packaged chip 38 may be provided with portions of a pathof magnetic or soft magnetic material and/or of magnetic vias similar tothe magnetic via 22 of FIG. 2.

The packaged chip 38 may have any shape, for example cylindrical,parallelepiped with polygonal base, pyramidal or frusto-pyramidal,conical or frusto-conical, or any other three-dimensional shape, andconsequently the socket 27 may be provided with a cavity 36 having asuitable shape.

Alternatively, in FIG. 7, the cavity 36 may house a second chip 3,similar to the chip of FIG. 6, not packaged.

In the packaged device 106 of FIG. 8, the second chip 4 is inserted in amagnetic socket provided in a recess 24 of the base 2, similarly to FIG.7, and a packaging body 37 is formed on top of the package 6, afterinsertion of the second chip 4, for example via further packagingmaterial.

FIG. 9 shows a packaged device 107 wherein two electronic devices 108 a,108 b, similar to the packaged device 105 of FIG. 7, are arranged on topof each other, one turned upside down with respect to the other so as tohave two bases 2, two first chips 3, two magnetic paths 5, and twocavities 36. The two cavities 36 are arranged aligned to each other andhouse a respective portion of a second chip 40. The second chip 40, inturn, has two antennas 12 and two magnetic vias 13, each antenna 12 andcorresponding magnetic via 13 being connected to a respective magneticpath 5 to form two magnetic circuits, including a respective first chip3.

In the embodiment shown in FIG. 9, each electronic device 108 a, 108 bhas a respective magnetic socket 27, of the type shown in FIG. 6,housing a respective portion of the second chip 40, and mechanical keys41 are formed in or made of the packaging material or some othermaterial, for example metal, and are arranged between the two packages 6for simplifying alignment and assembly of the electronic devices 108 a,108 b. An adhesive material 43 may be provided for blocking the secondchip 40 in position.

Magnetic regions 42 are formed on the main surfaces 15 and 16 of thesecond chip 40. In particular, in the embodiment shown in FIG. 9, fourmagnetic regions 42 are configured so that the two magnetic circuitsformed in the electronic devices 108 a and 108 b are insulated from eachother. Alternatively, only two magnetic regions 42 may be provided, oneon the first main surface 15 and one on the second main surface 16 sothat the two magnetic circuits are coupled together.

When only two magnetic regions 42 are provided, the second chip 40 mayhave a single antenna 12 and a corresponding magnetic via 13.

During assembly, the second chip 40 is inserted in one of the twomagnetic sockets 27, before stacking of the electronic devices 108 a,108 b, which may be glued to each other.

Alternatively, if they are not glued, the second chip 40 may be replacedif so desired, with the possibility of dismantling and re-assembling thesystem.

FIG. 10 shows an embodiment of a packaged device 109 wherein, instead ofa single second chip 40, the two cavities 36 house a packaged chip 50.In addition, here, the base 2 of the electronic device 108 b has a hole52, as a prolongation of the cavity 35 so as to enable insertion of thepackaged chip 50 after mutual fixing of the electronic devices 108 a and108 b. In this case, sealing material 51 may be provided in the cavity35 and in the hole 52 so as to block and seal the packaged chip 50.

Also in this case, if the sealing material 51 is missing or removable,it is possible to replace the packaged chip 50, even after mutual fixingof the electronic devices 108 a and 108 b.

The sealing material 51 may, in fact, be also a plug so that it may sealthe system and be removed in case of replacement of the packaged chip50.

The packaged chip 50 may present at the top appropriate mechanicalregions such as, for example, cavities, slotted joints, hooks, etc.,which may facilitate its extraction, for example, via a tool such asgrippers, or, in addition, regions may be provided that are magnetizedto enable extraction of the packaged chip 50 using a magnetized tool.

In FIG. 10, the packaged chip 50 has four magnetic regions, designatedby 42 as in FIG. 9, for coupling to the magnetic circuits.Alternatively, only two magnetic regions may be provided; moreover, thepackaged chip 50 may be inserted in the magnetic sockets 27 prior tofixing the electronic devices 108 a, 108 b, similarly to the second chip40 of FIG. 9.

FIGS. 11 and 12 show an embodiment of a device 110 wherein a third chip60 extends on top of a first chip 61, stacked thereon, and may beextracted therefrom.

In the shown example, the first and second chips 61, 4 are packaged inan own package 26, 55, similar to the first chip 3 of FIG. 6.

In addition, the first chip 61 and the third chip 60 each have a firstantenna 12 a, and a second antenna 12 b, with corresponding first andsecond internal magnetic vias 13 a, 13 b, which are arranged on top ofeach other and are positioned so that the first antennas 12 a andcorresponding first magnetic vias 13 a of the first and third chips 61,60 are arranged on top of each other and the second antennas 12 b andcorresponding second magnetic vias 13 b are arranged on top of eachother so as to be coupled to each other.

The magnetic path 5 is here practically only planar, being supportedcompletely by the base 2, and comprises a first and a second regions 5j, 5 k underneath the first chip 60, substantially aligned to the firstantennas 12 a and, respectively, the second antennas 12 b; the verticalportions 5 i 1, 5 i 2; a first stretch 5 m joining the vertical region 5i 1 to the first region 5 j; and a second stretch 5 p joining thevertical region 5 i 2 to the second region 5 k.

Magnetic regions 65 may be provided on top of the first and third chips61, 60 so that the magnetic circuit here comprises a horizontal portion,formed substantially by the path 5, and a vertical portion 66, includingthe antennas 12 a, 12 b, the magnetic vias 13 a, 13 b and the magneticregions 65 and is represented in a dashed line in FIG. 11.

The magnetic regions 65 advantageously reduce the criticality of thealignment between the vertical portions of the magnetic circuit of thefirst and third chips 61, 60.

As an alternative or in addition to what is shown in FIG. 11, a fourthchip (not shown) could be stacked on the second chip 4 and provide aportion of magnetic circuit having a development similar to that of thevertical portion 66.

In a further embodiment, the third chip 60 could be in common with afurther device, which is altogether similar to and arranged alongsidethe device 110 of FIG. 11, with possible mechanical keys similar tothose shown in FIG. 9 but arranged on the lateral surface of the device110.

It is thus possible to assemble various devices arranged horizontallyand vertically with respect to each other, which share at least onechip, which may be arranged in a horizontal or vertical or transverse oroblique position.

FIG. 13 shows an embodiment including an intermediate device 108 ccomprised between the electronic devices 108 a and 108 b of FIG. 9. Theintermediate device 108 c may also lack electrical interconnections, besupplied, and exchange signals via magnetic or electromagnetic fieldthrough the magnetic socket 27. In this case, the device 70, whichpasses through the three electronic devices 108 a-108 c, is similar tothe second chip 40 of FIG. 9 or to the packaged chip 50 of FIG. 10.

The device 70 may comprise at least one antenna 12 and at least onemagnetic via 13 for magnetic coupling with the respective paths 5 toform magnetic circuits that in turn may be magnetically coupled or notto each other similarly to what described with reference to FIGS. 9 and10.

In the socket 27 for the electronic device 108 a a further antenna 12 isarranged in the supporting portion 28 so as to be coupled with themagnetic material of the socket 27 and with a possible magnetic via 32.The further antenna 12 may be provided, for example, in aprinted-circuit board present in the socket 27 and may have electricalterminals for enabling its connection to other circuits.

The packaged device described above has numerous advantages.

The presence of a magnetic path on top of the base enables exchange ofsignals and power between two chips, one whereof is parallel to the baseand the other transverse, in particular perpendicular, withoutelectrical conductive paths. Thereby, the finished device is much morerobust to stresses of a mechanical and/or electrical type or to ageing,since its operation no longer depends upon the electrical continuity ofthe connections.

The total, or even partial, absence, of electrical conductors enables asimple connection also when one of the two chips is enclosed in an ownpackage.

Provision of a magnetic socket moreover enables insertion and extractionof one of the chips, packaged or not, and thus assembly at any moment(also at the level of the end user) of the device and/or use of the samebase and a same chip (for example, the first chip) with differentcomponents (for example, the second chip) to obtain finished deviceswith different functions. The electronic device is thus extremelyflexible and affords economies of scale, reducing the costs.

In addition, the magnetic socket enables replacement of chips (packagedor not) in the event of failure, with considerable economic advantages.

The use of magnetic circuits enables a non-complex and reliableassembly.

Finally, it is clear that modifications and variations may be made tothe packaged device described and illustrated herein, without therebydeparting from the scope of the present disclosure.

In the embodiments of FIGS. 1-10, the first chip 3 may have two antennas12 and a top magnetic region, similar to the third chip 60 of FIG. 11 sothat the magnetic path 5 is completely planar, as shown in FIG. 12.

Furthermore, some implementation aspects may be shared by differentembodiments. Consequently, in all the embodiments, the chips 3, 4, 60,61 may be packaged or not; the single package at a chip level 3, 4, 61may be provided prior to fixing the chip on the base 2 (as shown in FIG.7) or after (as in FIG. 6 for the first chip 3 and in FIG. 11, for thechips 4, 61). In all the embodiments of FIGS. 2-12, the magnetic socket27 may be formed by a suitably designed supporting structure, as, forexample, in FIG. 6, or exploiting a recess as in FIG. 3, possibly alsoproviding projections in the base 2, not shown. The individual chips 3,4 may be replaced by stacks of chips.

Moreover, in the embodiment of FIG. 1, the second stretch 5 b may beformed as the second stretch 5 d of FIG. 2, and thus extend in partunderneath the base 2. In the embodiments of FIGS. 3-13, the planarportions 5 f, 5 p may be replaced by the portion 5 d 3 on the rear ofthe base 2, with lateral joining portions 5 d 2 and/or magnetic vias 22,coupled to possible further antennas provided in the base 2. The variousembodiments described above can be combined to provide furtherembodiments. Aspects of the embodiments can be modified, if necessary toemploy concepts of the various patents, application and publications toprovide yet further embodiments. These and other changes can be made tothe embodiments in light of the above-detailed description. In general,in the following claims, the terms used should not be construed to limitthe claims to the specific embodiments disclosed in the specificationand the claims, but should be construed to include all possibleembodiments along with the full scope of equivalents to which suchclaims are entitled. Accordingly, the claims are not limited by thedisclosure.

The invention claimed is:
 1. A packaged system, comprising: a first basehaving a first surface and a second surface; a first chip having a firstsurface and a second surface, the first chip including a first antenna,the first and second surfaces of the first chip being substantiallyparallel to the first surface of the first base; a second chip having afirst surface and a second surface, the second chip including a secondantenna, the first and second surfaces of the second chip beingsubstantially transverse to the first surface of the first base; and amagnetic path extending on at least one of the first surface and secondsurface of the second chip and at least one of the first surface andsecond surface of the first chip, the magnetic path configured tomagnetically couple the first antenna and the second antenna.
 2. Thepackaged system of claim 1 wherein the first antenna is positionedadjacent to the first surface of the first chip.
 3. The packaged systemof claim 2 wherein the first chip includes a magnetic via that extendsfrom the first antenna to the second surface of the first chip.
 4. Thepackaged system of claim 1 wherein the second antenna is positionedadjacent to the first surface of the second chip.
 5. The packaged systemof claim 4 wherein the second chip includes a magnetic via that extendsfrom the second antenna to the second surface of the second chip.
 6. Thepackaged system of claim 1 wherein the magnetic path is coupled to afirst magnetic via in the first chip and a second magnetic via in thesecond chip.
 7. A device, comprising: a support having a first surfaceand a second surface; a first die on the first surface of the support,the first die extending substantially parallel to the first surface ofthe support and including a first antenna; a second die on the support,the second die extending substantially transverse to the first surfaceof the support and including a second antenna; and a magnetic socket onat least one of the first or second surfaces of the support, themagnetic socket configured to receive the second die and to magneticallycouple the first antenna in the first die to the second antenna in thesecond die.
 8. The device of claim 7 wherein the second die is on thefirst die.
 9. The device of claim 8 wherein the magnetic socket is onthe first surface of the support and further comprises: a first portionon the first surfaces of the first and second die; and a second portionon the second surfaces of the first and second die.
 10. The device ofclaim 7, wherein the magnetic socket is on the first and second surfacesof the support and further comprises: a first portion on the firstsurface of the support, a first surface of the first die, and a firstsurface of the second die; and a second portion on the second surface ofthe support and a second surface of the second die.
 11. The device ofclaim 10 wherein each of the first and second die comprises a stack ofdie.
 12. The device of claim 11, further comprising a package containingthe first and second die.
 13. The device of claim 12 wherein the seconddie is contained only partially within the package.
 14. A device,comprising: a package that includes: a first support; a first die on thefirst support, the first die including a first antenna; a second die onthe first support and extending transverse to the first die, the seconddie including a second antenna; and a magnetic path configured toprovide communication between the first and second antennas.
 15. Thedevice of claim 14 wherein the package includes a second support, thefirst die and the second die being between the first support and thesecond support.
 16. The device of claim 15 wherein the packages includesa third die on the second support.
 17. The device of claim 16 whereinthe first die includes a first antenna, a second die includes a secondantenna, and the third die includes a third antenna.
 18. The device ofclaim 17 wherein the package includes an electrical connection that iscoupled to the first antenna, the second antenna, and the third antenna.19. The device of claim 7, wherein the magnetic socket further comprisesengagement structures configured to secure the second die in positionand to enable insertion and removal of the second die from the magneticsocket.